RU2001103124A - IMPROVED POWER SUPPLY KIT FOR PORTABLE DATA TRANSMISSION DEVICE - Google Patents

Claims (16)

1. The method of charging the internal and external batteries in a power supply kit of a portable telephone, in which the telephone has a battery charge control unit for charging the telephone batteries using a plurality of battery charging speeds, comprising steps a) comparing the voltage of the internal battery with a predetermined voltage limit, b) the implementation of the compensation battery for the internal battery, if the voltage of the internal battery compared in step (a) is less than the limit voltage, while the compensation the series is carried out until the voltage of the internal battery exceeds the limit voltage, c) the quick charge for the internal battery is exceeded until the voltage of the internal battery exceeds a predetermined voltage threshold value, d) the external battery voltage is compared with the predetermined voltage limit , e) the implementation of the compensation battery for the external battery, if the voltage of the external battery associated with in step (d) is less than the voltage limit, while The charging charge is carried out until the voltage of the external battery exceeds the limit voltage, f) the quick charge for the external battery is exceeded until the voltage of the external battery exceeds a predetermined threshold voltage value, g) the highest charge for the internal battery is until the internal battery is fully charged; and h) the highest charge for the external battery until the external battery is fully charged.  2. The method of charging batteries according to claim 1, characterized in that the voltage limit is a predetermined minimum operating voltage of the portable telephone.  3. The method of charging the batteries according to claim 2, characterized in that the predetermined minimum operating voltage of the portable telephone is 3.4 V.  4. The method of charging the batteries according to claim 1, characterized in that steps (b) and e) of the compensation charge provide a larger charge current to the telephone and, thus, maintain a minimum telephone operating voltage.  5. The method of charging batteries according to claim 1, characterized in that steps (c) and (f) of fast charge include charging the battery with a full charge current until the batteries reach a state of almost full voltage capacity.  6. The method of charging batteries according to claim 5, characterized in that in steps (c) and (f) of fast charging, the battery is charged at a much higher speed than in steps (b) and e) of the compensation charge and steps (g) and h) the largest charge.  7. A method for charging internal and external batteries in a power supply kit of a portable telephone, comprising steps a) comparing the voltage of the internal battery with a predetermined voltage limit, b) performing compensation charge for the internal battery if the voltage of the internal battery compared in step (a) is less than the limit voltage, while the compensation charge is carried out until the voltage of the internal battery exceeds the limit voltage, c) for the internal battery fast charging until the voltage of the internal battery exceeds a predetermined threshold voltage value, d) detecting whether the portable telephone has another internal battery, and if so, repeating steps (a) to (c) for each remaining internal battery , e) comparing the voltage of the external battery with a predetermined limit voltage, f) performing a compensation charge for the external battery, if the voltage of the external battery compared in step (e) is less than the limit voltage, p In this case, the compensation charge is carried out until the voltage of the external battery exceeds the voltage limit, g) for the external battery to quickly charge until the voltage of the external battery exceeds a predetermined voltage threshold value, h) detecting whether the portable telephone another external battery, and, if any, repeating steps (e) - (g) for each remaining external battery, i) for each internal battery charged in steps (a) - (d), the maximum charge is reached the full charge of each internal battery; and j) for each external battery charged in steps (e) to (h), the maximum charge is achieved until the full charge of each external battery is reached.  8. The method of charging batteries according to claim 7, characterized in that each battery is charged to almost full capacity during steps (c) and (g) of fast charge.  9. The method according to p. 8, characterized in that the charge time required to charge each battery to almost full capacity is significantly less than the total charge time required to charge each battery to full capacity.  10. A battery charging device for charging the internal and external batteries of a portable telephone power supply kit, in which the telephone contains a power line for supplying power to the telephone, comprising: a) a control unit comprising a first and second detector for detecting voltages supplied by the internal and external batteries, while the control unit is operatively connected with internal and external batteries, and the control unit controls the connection of the batteries to the telephone power line, b) an external voltage input, ope coupled to a control unit for supplying a charge input to a selected battery, the control unit further comprises a detector for detecting when a charge input is connected to a charger, and further comprises a selector for selectively connecting a charge input to an internal or external battery; and c) a microcontroller electrically connected with the control unit, while the microcontroller determines when the selected battery requires charging, and the microcontroller instructs the control unit to connect the charge unit to a battery that requires recharging, and each battery is charged to near full capacity using a programmable multi-stage battery charging method.  11. The battery charging device according to claim 10, characterized in that the multi-stage method of charging the batteries includes first performing a compensation charge for the selected battery until the battery voltage exceeds a predetermined voltage threshold value, and then performing the fast charge for the selected battery to until the selected battery is charged to near full capacity.  12. The battery charging device according to claim 11, characterized in that the multi-stage method of charging batteries further includes the implementation for the selected battery the greatest charge and, thus, full charge of the selected battery.  13. A computer program running on a universal computing device, the program provides control of the connection of the internal and external batteries of the portable telephone with the charger, the program detects when the selected battery requires charging by determining the output voltage of each battery and determining when the output voltage the selected battery drops below a predetermined voltage limit, while the program contains: a) a first set of commands for matching in the output voltage of the internal battery with a predetermined limit voltage, b) a second set of instructions for performing compensation charge for the internal battery if the output voltage of the internal battery is less than the limit voltage, while the compensation charge is carried out until the output voltage of the internal battery exceeds the limit voltage , c) a third set of instructions for executing for the internal battery a fast charge until the voltage of the internal battery exceeds An appropriately defined threshold voltage value, d) a fourth set of instructions for comparing the output voltage of the external battery with a predetermined limit voltage, e) a fifth set of instructions for performing compensation charge for the external battery if the output voltage of the external battery is less than the limit voltage, while the compensation charge is until the output voltage of the external battery exceeds the limit voltage, f) the sixth set of instructions for implementation for the external battery its fast charge until the output voltage of the external battery exceeds a predetermined threshold voltage value, g) the seventh set of instructions for the highest charge for the internal battery until the internal battery is fully charged and h) the eighth set of instructions for carrying out the highest charge for the external battery until the external battery is fully charged.  14. A computer program according to claim 13, executed by a universal computing device in a portable telephone.  15. The computer program according to claim 13, executed by a device with a logical microcircuit programmed under operating conditions in a portable telephone.  16. The computer program according to claim 13, performed by the microcontroller in a portable telephone.